Archives of Microbiology https://doi.org/10.1007/s00203-021-02196-8 ORIGINAL PAPER Impacts of replanting American ginseng on fungal assembly and abundance in response to disease outbreaks Li Ji1,2 · Lei Tian1 · Fahad Nasir1 · Jingjing Chang1,2 · Chunling Chang1 · Jianfeng Zhang3 · Xiujun Li1 · Chunjie Tian1,3 Received: 24 June 2020 / Revised: 24 December 2020 / Accepted: 4 February 2021 © The Author(s) 2021 Abstract Soil physicochemical properties and fungal communities are pivotal factors for continuous cropping of American ginseng (Panax quinquefolium L.). However, the response of soil physicochemical properties and fungal communities to replant disease of American ginseng has not yet been studied. High-throughput sequencing and soil physicochemical analyses were undertaken to investigate the diference of soil fungal communities and environmental driver factors in new and old ginseng felds; the extent of replant disease in old ginseng felds closely related to changes in soil properties and fungal communi- ties was also determined. Results indicated that fungal communities in an old ginseng feld were more sensitive to the soil environment than those in a new ginseng feld, and fungal communities were mainly driven by soil organic matter (SOM), soil available phosphorus (AP), and available potassium (AK). Notably, healthy ginseng plants in new and old ginseng felds may infuence fungal communities by actively recruiting potential disease suppressive fungal agents such as Amphinema, Cladophialophora, Cadophora, Mortierella, and Wilcoxina. When these key groups and members were depleted, suppres- sive agents in the soil possibly declined, increasing the abundance of pathogens. Soil used to grow American ginseng in the old ginseng feld contained a variety of fungal pathogens, including Alternaria, Armillaria, Aphanoascus, Aspergillus, Setophoma, and Rhexocercosporidium. Additionally, micro-ecological factors afecting disease outbreaks in the old ginseng feld included a strengthening in competition relationships, a weakening in cooperation relationships, and a change of trophic strategies among fungal communities. Keywords Continuous cropping · Fungal community · Old ginseng feld · Pathogens Introduction American ginseng to mature (4 years) (Schmidt et al. 2019), the increase in demand for this herb and the lack of available American ginseng (Panax quinquefolium L.) is a peren- felds has led to American ginseng crops to be replanted nial herbaceous plant that has been used in herbal reme- in the same location/feld. Compared to newly cultivated dies around the world (Christensen et al. 2006; Dong et al. felds, old ginseng felds (the feld where ginseng plants had 2017). However, due to the relatively long time taken for been previously cultivated and harvested) are characterized by problems associated with replanting diseases, resulting in lower yields and plants having poor medicinal quality Communicated by Olaf Kniemeyer. (e.g., ginsenosides) (He et al. 2009; Rahman and Punja 2005; Wang 2017). Generally, after 3 years of growth in * Chunjie Tian an old ginseng feld, the survival rate of cultivated ginseng [email protected] seedlings is less than 25%; about 75% of ginseng plants suf- 1 Key Laboratory of Mollisols Agroecology, Northeast fer from various diseases, including fbrous root fall-of and Institute of Geography and Agroecology, Chinese Academy rotten roots (Wu et al. 2008). Given that the replant failure of Sciences, Changchun 130102, Jilin, China of American ginseng is closely related to disease outbreak, 2 University of Chinese Academy of Sciences, Beijing 100049, mechanisms underlying problems associated with replanted China American ginseng urgently need to be identifed to properly 3 Key Laboratory of Straw Biology and Utilization address disease issues related to replanting. of the Ministry of Education, Jilin Agricultural University, Changchun 130118, Jilin, China Vol.:(0123456789)1 3 Archives of Microbiology Previous studies have shown that both abiotic and biotic 800 and 1000 mm, and a frost-free period of about 150 days. soil factors afect continuous cropping of American gin- The old ginseng feld selected for study was cultivated with seng (Dong et al. 2017; Fu et al. 2009). For abiotic factors, American ginseng for 4 years; the crop was harvested in the replanting failure has been closely linked to changes in soil 5th year (in September 2015). In contrast, a feld that had physical and chemical properties (Bennett et al. 2012; Li not previously been cultivated with American ginseng was et al. 2020a, b). For example, Liu et al. (2020) demonstrated selected as a new ginseng feld. The distance between the that continuous cropping of American ginseng signifcantly new and old ginseng felds is about 200 m. In October 2016, decreased rhizosphere soil pH, ammonium, available phos- American ginseng seeds were sown at the same time in the phorus, and available potassium contents. Since changes in new and old ginseng felds and then covered with crushed soil properties are closely related to soil microbial commu- corn straw and cold-proof flm. The same agronomic man- nities (Lauber et al. 2008; Lei et al. 2020; Li et al. 2018), agement and fertilization regimes were applied for both replanting failure is also related to soil biotic factors, includ- felds, including the application of polyoxin spray and meta- ing fungal communities. A recent study by Jiang et al. (2019) laxyl agrochemicals according to the manufacturers’ instruc- showed that continuous cropping of American ginseng could tions, and 46.2 g/m2 potassium sulfate compound fertilizer signifcantly decrease soil fungal richness and diversity, and and potassium dihydrogen phosphate foliar fertilizer. increase the abundance of fungal pathogens (especially the Soil samples surrounding 3-year-old American ginseng genera Monographella) in root-rot diseased plants compared plants in the new and old ginseng felds were collected to healthy plants. Similarly, Dong et al. (2016) reported that (August 2019) by removing plants from a depth of 20 cm continuous cropping of Panax notoginseng (same genus and gently shaking the soil from the roots. According to as American ginseng) could signifcantly decrease fun- observations, about 2 weeks before sample collection some gal diversity while increasing the relative abundance of plants had symptoms of withered yellow leaves and rotten Fusarium sp. pathogens, which was positively associated roots in both the new and old ginseng felds. Although the with P. notoginseng death rates. Additionally, the majority disease symptoms were almost the same in both (new and of soil-borne diseases in American ginseng are caused by a old) felds, the number of infected plants was remarkably diverse array of fungal pathogens such as Fusarium spp. and higher in the old ginseng feld than in the new ginseng feld. Cylindrocarpon spp. (Rahman and Punja 2007). Although Soil samples from plants with the same disease symptoms fungal pathogens have been linked to outbreaks of replant- in both felds were labeled as ND and OD, respectively. Soil ing diseases in many crops (Wang et al. 2018a, b; Yang et al. samples from plants with green stems and leaves without 2012), it is still unclear if fungal pathogens have a negative any disease symptoms in both felds were labeled as NH legacy, contributing to the outbreak of American ginseng and OH, respectively. Blank control samples were obtained replanting diseases in old ginseng felds. by collecting soil from a depth of 0–20 cm from unculti- In this study, we hypothesize that: (1) the legacy efect in vated American ginseng soil in both the new and old ginseng an old ginseng feld will lead to diferences in soil physical felds, labeled as NB and OB, respectively. For each soil and chemical properties between new and old ginseng felds; sample four replicas were analyzed, and for each replica- (2) the composition of fungal communities in new and old tion fve random soil samples were pooled together. Soil ginseng felds are driven by diferent soil properties; and samples were sealed in airtight plastic bags and stored in (3) diferences in response to disease are associated with dry-ice before being transported to the laboratory. All sam- diversity, interactions, and the function of fungal communi- ples were homogenized and divided into two sub-samples: ties in new and old ginseng felds. Results gained from this one sub-sample was air-dried at room temperature for soil study provide a basis to expand our understanding of the soil property analysis, and the other was stored at − 80 °C for fungal environment and disease management of American DNA extraction. ginseng in old ginseng felds. Soil property analyses and DNA extraction Materials and methods Soil pH (PHS-3C, Shang Hai Shengci Instrument Co., Ltd, China) and electrical conductivity (EC; DDS 11A, Shang Sampling site description and sampling methods Hai Yoke Instrument Co., Ltd, China) were measured using a soil:water ratio of 1:5 (dry weight/volume). Soil total phos- The sampling site is located in Ji’an City, an experimen- phorus (TP), total nitrogen (TN), and soil organic matter tal base for the re-use of old ginseng feld (126°11′33″ E, (SOM) were measured following the methods of Luo et al. 41°10′2″ N; 250 m altitude), Jilin Province, China. This area (2018). Soil available phosphorus (AP), available potassium is characterized by a dark brown soil, an annual average (AK), and KMnO4-oxidizable carbon (EOC) were evaluated temperature of 6.5 ℃, average annual precipitation between using the methods of Luo et al. (2017) and Shi et al. (2019). 1 3 Archives of Microbiology Total DNA was extracted from 0.5 g of soil using a Fast Community patterns were analyzed using Principal Coordi- DNA SPIN Kit (MP Biomedicals, Santa Ana, CA, USA) nate Analysis (PCoA) based on Bray–Curtis distance in the according to the manufacturer’s instructions. “vegan” package (Sakaki et al. 1994). Relationships between soil properties and fungal communities were examined using ITS gene amplifcation and purifcation redundancy analysis (RDA) in the “vegan” package (v2.4.1) in R v3.2.1 (McMurdie and Holmes 2013).
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